blownelco Plaetevoet
/
ESP8266Interface
Important changes to repositories hosted on mbed.com
Mbed hosted mercurial repositories are deprecated and are due to be permanently deleted in July 2026.
To keep a copy of this software download the repository Zip archive or clone locally using Mercurial.
It is also possible to export all your personal repositories from the account settings page.
Fork of
ESP8266Interface
by 
ESP8266
ESP8266/ESP8266.cpp
- Committer:
- mbedAustin
- Date:
- 2015-05-07
- Revision:
- 43:2e326d95fe2c
- Parent:
- 42:3f62103a4f3c
- Child:
- 45:c180905b5b79
File content as of revision 43:2e326d95fe2c:
/* Copyright (C) 2012 mbed.org, MIT License
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of this software
* and associated documentation files (the "Software"), to deal in the Software without restriction,
* including without limitation the rights to use, copy, modify, merge, publish, distribute,
* sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all copies or
* substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING
* BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
* DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
#include "mbed.h"
#include "ESP8266.h"
#include "Endpoint.h"
#include <string>
#include <algorithm>
//Debug is disabled by default
#if 1
#define DBG(x, ...) printf("[ESP8266 : DBG]"x" \t[%s,%d]\r\n", ##__VA_ARGS__,__FILE__,__LINE__);
#define WARN(x, ...) printf("[ESP8266 : WARN]"x" \t[%s,%d]\r\n", ##__VA_ARGS__,__FILE__,__LINE__);
#define ERR(x, ...) printf("[ESP8266 : ERR]"x" \t[%s,%d]\r\n", ##__VA_ARGS__,__FILE__,__LINE__);
#else
#define DBG(x, ...)
#define WARN(x, ...)
#define ERR(x, ...)
#endif
#if 1
#define INFO(x, ...) printf("[ESP8266 : INFO]"x" \t[%s,%d]\r\n", ##__VA_ARGS__,__FILE__,__LINE__);
#else
#define INFO(x, ...)
#endif
#define ESP_MAX_TRY_JOIN 3
#define ESP_MAXID 4 // the largest possible ID Value (max num of sockets possible)
ESP8266 * ESP8266::inst;
char* ip = NULL;
ESP8266::ESP8266(PinName tx, PinName rx, PinName reset, const char *ssid, const char *phrase, uint32_t baud) :
wifi(tx, rx), reset_pin(reset), buf_ESP8266(ESP_MBUFFE_MAX)
{
INFO("Initializing ESP8266 object");
memset(&state, 0, sizeof(state));
// change all ' ' in '$' in the ssid and the passphrase
strcpy(this->ssid, ssid);
for (int i = 0; i < strlen(ssid); i++) {
if (this->ssid[i] == ' ')
this->ssid[i] = '$';
}
strcpy(this->phrase, phrase);
for (int i = 0; i < strlen(phrase); i++) {
if (this->phrase[i] == ' ')
this->phrase[i] = '$';
}
inst = this;
attach_rx(false);
wifi.baud(baud); // initial baud rate of the ESP8266
state.associated = false;
state.cmdMode = false;
}
bool ESP8266::join()
{
sendCommand( "AT+CWMODE=1", "change", NULL, 1000);
string cmd="AT+CWJAP=\""+(string)this->ssid+"\",\""+(string)this->phrase+"\"";
if( sendCommand( cmd.c_str(), "OK", NULL, 10000) ) {
// successfully joined the network
state.associated = true;
INFO("ssid: %s, phrase: %s", this->ssid, this->phrase);
return true;
}
return false;
}
bool ESP8266::connect()
{
sendCommand("AT+CWDHCP=1,1","OK",NULL,1000); // DHCP Enabled in Station Mode
return ESP8266::join();
}
bool ESP8266::is_connected()
{
return true;
}
bool ESP8266::start(bool type,char* ip, int port, int id)
{
// Error Check
if(id > ESP_MAXID) {
ERR("startUDPMulti: max id is: %d, id given is %d",ESP_MAXID,id);
return false;
}
// Single Connection Mode
if(id < 0) {
DBG("Start Single Connection Mode");
char portstr[5];
char idstr[2];
bool check [3] = {0};
sprintf(idstr,"%d",id);
sprintf(portstr, "%d", port);
switch(type) {
case ESP_UDP_TYPE : //UDP
check[0] = sendCommand(( "AT+CIPSTART=\"UDP\",\"" + (string) ip + "\"," + (string) portstr ).c_str(), "OK", NULL, 10000);
break;
case ESP_TCP_TYPE : //TCP
check[0] = sendCommand(( "AT+CIPSTART=\"TCP\",\"" + (string) ip + "\"," + (string) portstr ).c_str(), "OK", NULL, 10000);
break;
default:
ERR("Default hit for starting connection, this shouldnt be possible!!");
break;
}
check[1] = sendCommand("AT+CIPMODE=1", "OK", NULL, 1000);// go into transparent mode
check[2] = sendCommand("AT+CIPSEND", ">", NULL, 1000);// go into transparent mode
// check that all commands were sucessful
if(check[0] and check[1] and check[2]) {
state.cmdMode = false;
return true;
} else {
ERR("startUDPTransparent Failed for ip:%s, port:%d",ip,port);
return false;
}
}
// Multi Connection Mode
else {
//TODO: impliment Multi Connection Mode
ERR("Not currently Supported!");
return false;
// DBG("Start Multi Connection Mode");
// char portstr[5];
// char idstr[2];
// bool check [3] = {0};
// sprintf(idstr,"%d",id);
// sprintf(portstr, "%d", port);
// switch(type) {
// case ESP_UDP_TYPE : //UDP
// check[0] = sendCommand(( "AT+CIPSTART=" + (string) idstr + ",\"UDP\",\"" + (string) ip + "\"," + (string) portstr ).c_str(), "OK", NULL, 10000);
// break;
// case ESP_TCP_TYPE : //TCP
// check[0] = sendCommand(( "AT+CIPSTART=" + (string) idstr + ",\"TCP\",\"" + (string) ip + "\"," + (string) portstr ).c_str(), "OK", NULL, 10000);
// break;
// default:
// ERR("Default hit for starting connection, this shouldnt be possible!!");
// break;
// }
}
}
bool ESP8266::startUDP(char* ip, int port)
{
char portstr[5];
sprintf(portstr, "%d", port);
sendCommand(( "AT+CIPSTART=\"UDP\",\"" + (string) ip + "\"," + (string) portstr ).c_str(), "OK", NULL, 10000);
sendCommand("AT+CIPMODE=1", "OK", NULL, 1000);// go into transparent mode
sendCommand("AT+CIPSEND", ">", NULL, 1000);// go into transparent mode
//DBG("Data Mode");
state.cmdMode = false;
return true;
}
bool ESP8266::close()
{
wait(0.1f);
send("+++",3);
wait(1.0f);
state.cmdMode = true;
sendCommand("AT+CIPCLOSE","OK", NULL, 10000);
return true;
}
bool ESP8266::disconnect()
{
// if already disconnected, return
if (!state.associated)
return true;
// send command to quit AP
sendCommand("AT+CWQAP", "OK", NULL, 10000);
state.associated = false;
return true;
}
/*
Assuming Returned data looks like this:
+CIFSR:STAIP,"192.168.11.2"
+CIFSR:STAMAC,"18:fe:34:9f:3a:f5"
grabbing IP from first set of quotation marks
*/
char* ESP8266::getIPAddress()
{
char result[30] = {0};
int check = 0;
check = sendCommand("AT+CIFSR", NULL, result, 1000);
//pc.printf("\r\nReceivedInfo for IP Command is: %s\r\n",result);
ip = ipString;
if(check) {
// Success
string resultString(result);
uint8_t pos1 = 0, pos2 = 0;
//uint8_t pos3 = 0, pos4 = 0;
pos1 = resultString.find("+CIFSR:STAIP");
pos1 = resultString.find('"',pos1);
pos2 = resultString.find('"',pos1+1);
//pos3 = resultString.find('"',pos2+1); //would find mac address
//pos4 = resultString.find('"',pos3+1);
strncpy(ipString,resultString.substr(pos1,pos2).c_str(),sizeof(ipString));
ipString[pos2 - pos1 +1] = 0; // null terminate string correctly.
INFO("IP: %s",ipString);
ip = ipString;
} else {
// Failure
ERR("getIPAddress() failed");
ip = NULL;
}
return ip;
}
bool ESP8266::gethostbyname(const char * host, char * ip)
{
string h = host;
int nb_digits = 0;
// no dns needed
int pos = h.find(".");
if (pos != string::npos) {
string sub = h.substr(0, h.find("."));
nb_digits = atoi(sub.c_str());
}
//printf("substrL %s\r\n", sub.c_str());
if (count(h.begin(), h.end(), '.') == 3 && nb_digits > 0) {
strcpy(ip, host);
return true;
} else {
// dns needed, not currently available
ERR("gethostbyname(): DNS Not currently available, only use IP Addresses!");
return false;
}
}
void ESP8266::reset()
{
reset_pin = 0;
wait_us(20);
reset_pin = 1;
//wait(1);
//send("+++",3);
//wait(1);
state.cmdMode = true;
sendCommand("AT", "OK", NULL, 1000);
sendCommand("AT+RST", "ready", NULL, 10000);
state.associated = false;
}
bool ESP8266::reboot()
{
reset();
return true;
}
void ESP8266::handler_rx(void)
{
//read characters
char c;
while (wifi.readable()) {
c=wifi.getc();
buf_ESP8266.queue(c);
//if (state.cmdMode) pc.printf("%c",c); //debug echo, needs fast serial console to prevent UART overruns
}
}
void ESP8266::attach_rx(bool callback)
{
if (!callback) {
wifi.attach(NULL);
}
else {
wifi.attach(this, &ESP8266::handler_rx);
}
}
int ESP8266::readable()
{
return buf_ESP8266.available();
}
int ESP8266::writeable()
{
return wifi.writeable();
}
char ESP8266::getc()
{
char c=0;
while (!buf_ESP8266.available());
buf_ESP8266.dequeue(&c);
return c;
}
int ESP8266::putc(char c)
{
while (!wifi.writeable() || wifi.readable()); //wait for echoed command characters to be read first
return wifi.putc(c);
}
void ESP8266::flush()
{
buf_ESP8266.flush();
}
int ESP8266::send(const char * buf, int len)
{
//TODO: need to add handler for data > 2048B, this is the max packet size of the ESP8266.
if(len >= 2048){
WARN("send buffer >= 2048B, need to chunk this up to be less.");
}
const char* bufptr=buf;
for(int i=0; i<len; i++) {
putc((int)*bufptr++);
}
return len;
}
bool ESP8266::sendCommand(const char * cmd, const char * ACK, char * res, int timeout)
{
char read;
size_t found = string::npos;
string checking = "";
Timer tmr;
int result = 0;
DBG("sendCmd:\t %s",cmd);
attach_rx(true);
//We flush the buffer
while (readable())
getc();
if (!ACK || !strcmp(ACK, "NO")) {
for (int i = 0; i < strlen(cmd); i++) {
result = (putc(cmd[i]) == cmd[i]) ? result + 1 : result;
wait(0.005f); // prevents stuck recieve ready (?) need to let echoed character get read first
}
putc(13); //CR
wait(0.005f); // wait for echo
putc(10); //LF
} else {
//We flush the buffer
while (readable())
getc();
tmr.start();
for (int i = 0; i < strlen(cmd); i++) {
result = (putc(cmd[i]) == cmd[i]) ? result + 1 : result;
wait(.005); // wait for echo
}
putc(13); //CR
wait(0.005f); // wait for echo
putc(10); //LF
while (1) {
if (tmr.read_ms() > timeout) {
//We flush the buffer
while (readable())
getc();
DBG("check:\t %s", checking.c_str());
attach_rx(true);
return -1;
} else if (readable()) {
read = getc();
//printf("%c",read); //debug echo
if ( read != '\r' && read != '\n') {
checking += read;
found = checking.find(ACK);
if (found != string::npos) {
wait(0.01f);
//We flush the buffer
while (readable())
read = getc();
//printf("%c",read); //debug echo
break;
}
}
}
}
DBG("check: %s", checking.c_str());
attach_rx(true);
return result;
}
//the user wants the result from the command (ACK == NULL, res != NULL)
if ( res != NULL) {
int i = 0;
Timer timeout;
timeout.start();
tmr.reset();
while (1) {
if (timeout.read() > 2) {
if (i == 0) {
res = NULL;
break;
}
res[i] = '\0';
DBG("user str 1: %s", res);
break;
} else {
if (tmr.read_ms() > 300) {
res[i] = '\0';
DBG("user str: %s", res);
break;
}
if (readable()) {
tmr.start();
read = getc();
// we drop \r and \n
if ( read != '\r' && read != '\n') {
res[i++] = read;
}
}
}
}
DBG("user str: %s", res);
}
//We flush the buffer
while (readable())
getc();
attach_rx(true);
DBG("result: %d", result)
return result;
}